Preparation of PbTiO₃ thin films by plasma enhanced MOCVD and the effect of rapid thermal annealing

Abstract

Dielectric PbTiO₃-thin films were prepared on p-Si(100) substrate by plasma enhanced metalorganic chemical vapor deposition using high purity Ti(O-i-C₃H₇)₄, Pb(tmhd)₂, and oxygen. As-deposited films were post-treated by rapid thermal annealing method, and the effect of annealing was examined under various conditions. The deposition process was controlled by mixed-control scheme at temperatures lower than 350°C, but controlled by heterogeneous surface reaction at temperatures greater than 350°C. The as-deposited films showed PbO structure at 350∼400°C, but (100) and (101) PbTiO₃ orientations started to appear at 450°C. The deposition rate was increased with rf power due to the enhanced dissociation of Ti and Pb precursors. It was found that the concentration of oxygen plays an important role in crystallization of PbTiO₃ during the rapid thermal annealing. A linear relationship was obtained between the dielectric constant of PbTiO₃ films and the annealing temperature. However, the surface roughness and leakage current density increased mainly due to the defects caused by volatilization of lead and the interface layer formed during the high temperature annealing.